光热控制下白豌豆营养休眠

Allen A. Chen, Shui-zhang Fei, Andrew W. Lenssen, Kenneth J. Moore
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摘要

夏季营养休眠是冷季草与一年生作物套种时的理想特性。桑德伯格蓝草(Poa secunda J. Presl.)表现出夏季休眠,但控制休眠的环境线索尚不清楚。方法采用32.2°C/15 h、26.6°C/14 h、21.1°C/13 h和15.5°C/12 h的温度和日照组合,以“奥杜邦”红羊茅为非休眠对照,确定诱导休眠的最佳处理。第二项研究采用26.6°C/14 h、21.1°C/13 h和15.5°C/12 h处理,以确定休眠释放的阈值。第三项研究采用两种温度(32.2°C和15.5°C)和两种白天长度(15和12小时)的析因实验来区分温度和白天长度对诱导休眠的影响。结果4种温度和日长组合中,除15.5°C/12 h外,其余均在6周后休眠,其中32.2°C/15 h仅在17 d内休眠。在3个解除休眠处理中,15.5°C/12 h解除休眠最快,解除休眠植株数量最多。在21.1°C/13 h和26.6°C/14 h处理下,不同种质间的休眠释放速度存在较大差异。第三项研究表明,温度是夏季休眠的主要诱因,而在诱导温度下,较长的日照可能促进休眠。结论本研究确定了诱导和释放白杨夏季休眠的最佳光热条件,为进一步研究白杨夏季休眠机制奠定了基础。
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Photothermal controls of vegetative dormancy in Poa secunda

Background

Summer vegetative dormancy is a desirable trait in cool-season grasses when they are interplanted with annual crops. Sandberg bluegrass (Poa secunda J. Presl.) shows summer dormancy, but the environmental cues that control dormancy remain unknown.

Methods

A controlled environment study using temperature and day length combinations of 32.2°C/15 h, 26.6°C/14 h, 21.1°C/13 h, and 15.5°C/12 h was conducted with P. secunda accessions PI232347, PI639272, and PI232348, and ‘Audubon’ red fescue as a nondormant control to determine the optimum treatment for dormancy induction. A second study using treatments of 26.6°C/14 h, 21.1°C/13 h, and 15.5°C/12 h was conducted to determine the thresholds for dormancy release. A third study used a factorial experiment with two temperatures (32.2°C and 15.5°C) and two day lengths (15 and 12 h) to differentiate between temperature and day length effects on dormancy induction.

Results

Of the four temperature and day length combinations, all except for 15.5°C/12 h resulted in dormancy by the end of 6 weeks, with 32.2°C/15 h inducing dormancy in only 17 days. Of the three treatments for dormancy release, 15.5°C/12 h broke dormancy the fastest in all accessions and released the most number of plants from dormancy. Considerable variation existed between accessions for the speed of dormancy release in the 21.1°C/13 h and 26.6°C/14 h treatments. The third study showed that temperature is the primary inducer for summer dormancy, while longer day length may promote dormancy under inductive temperatures.

Conclusions

This study identified the optimum photothermal for induction and release of summer dormancy in P. secunda, which will help future studies in elucidating the mechanism of summer dormancy.

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